JP2003285542A - Ink jet printing transfer medium and transferring method, and ink jet recorded material formed by the medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an ink jet transfer medium to enhance storage stability of an ink image formed by dye ink and pigment ink. <P>SOLUTION: In the ink jet printing transfer medium comprising a substrate, an image protective layer provided on the substrate and an ink receiving layer provided on the image protective layer, the ink receiving layer contains a thermoplastic resin, and the image protective layer and the ink receiving layer are separated from the substrate. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ink jet printing transfer medium and a transfer method thereof, and more particularly, to the ink receiving layer after the ink is adhered to the ink receiving layer by the ink jet recording method. The present invention relates to an inkjet printing transfer medium for transferring to a sheet, a transfer method thereof, and an inkjet recorded matter formed by the medium.

2. Description of the Related Art An ink jet recording system uses mechanical energy from a piezoelectric element or the like or thermal energy from a heating element to apply ejection energy to ink to eject small ink droplets from a recording head onto a recording medium. This is a system in which the droplets are attached to form the dots of the small droplets and recording is performed. Since such a recording method has features such as sharpness of recording, quietness of sound of a driving device, and ease of colorization, in recent years,
Its popularity is increasing more and more. In addition to plain paper, a recording surface side (front surface side) is used as a recording medium for forming and recording an image (including characters) by using such a recording method.
A special paper having an ink receiving layer is known. In recent years, it has been desired to form a clear full-color image with higher resolution on such a recording medium. Due to recent technological development, in order to realize high image quality, inkjet recording media are required to have high image quality and high storability comparable to those of silver halide photographs. The inks used in the inkjet recording system are roughly classified into two types of inks, an ink containing a dye (hereinafter referred to as “dye ink”) and an ink containing a pigment (hereinafter referred to as “pigment ink”). Is known. Dye inks are widely used in printers for general household use because of their good coloring properties. However, the dye ink has water resistance, gas resistance,
The light resistance may be slightly inferior. On the other hand, since the pigment ink has better light resistance and water resistance than silver salt photographs,
Although it is becoming widespread in the fine art and photographic markets, problems such as uneven gloss, abrasion resistance, gas resistance and print density have been pointed out as problems of the pigment ink. As a method for solving the above problems of the ink image and improving the image storability, it has been proposed to separately provide a protective layer on the ink image after inkjet recording. However, it is pointed out that a device for transferring the protective layer is required, and that if the transfer device is provided in the inkjet recording device, the device becomes complicated. Therefore, there is a demand for easily improving the storability of ink jet recorded images.

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and an inkjet printing transfer medium and a transfer method therefor capable of easily improving the storability of an inkjet recorded image, and a transfer method therefor are formed. It is an object of the present invention to provide a recorded inkjet recorded matter.

The above object is an ink jet print transfer medium comprising a support, an image protective layer provided on the support, and an ink receiving layer provided on the image protective layer. The ink receiving layer includes a thermoplastic resin, and is achieved by an inkjet printing transfer medium in which the support is peeled from the image protection layer. According to a preferred aspect of the present invention, in the inkjet print transfer medium, the ink receiving layer further comprises an inorganic pigment and a binder. According to a preferred aspect of the present invention, in the inkjet print transfer medium, the glass transition point of the thermoplastic resin in the ink receiving layer is −20 to 100 ° C. According to a preferred aspect of the present invention, in the inkjet print transfer medium, the image protection layer contains a thermoplastic resin. According to a preferred embodiment of the present invention, in the inkjet print transfer medium, the glass transition point of the thermoplastic resin in the image protective layer is 20 to 120 ° C. According to a preferred aspect of the present invention, in the inkjet print transfer medium, the ink received by the ink receiving layer is an ink containing a dye or an ink containing a pigment. Further, the above object utilizes an inkjet print transfer medium comprising a support, an image protective layer provided on the support, and an ink receiving layer containing a thermoplastic resin and provided on the protective layer. Then, a transfer method for transferring an image to a recording medium, wherein an image is formed on the ink receiving layer,
A step of adhering ink to the ink receiving layer, and melting the thermoplastic resin in a state in which the ink receiving layer and the recording medium are superposed, and the ink receiving layer and the recording medium are adhered to each other. And a peeling step of peeling the support from the image protective layer. According to a preferred aspect of the present invention, in the transfer method, the heating step is performed by a heat roll or a thermal head. According to a preferred aspect of the present invention, in the transfer method, the recording medium is an ink absorbing or non-ink absorbing medium. According to a preferred aspect of the present invention, in the transfer method, the ink receiving layer further comprises an inorganic pigment and a binder. According to a preferred aspect of the present invention, in the transfer method, the glass transition point of the thermoplastic resin in the ink receiving layer is -20 to 100 ° C. According to a preferred aspect of the present invention, in the transfer method, the image protection layer further comprises a thermoplastic resin. According to a preferred aspect of the present invention, in the transfer method, the glass transition point of the thermoplastic resin in the image protective layer is 20 to 120 ° C. According to a preferred aspect of the present invention, in the transfer method, the ink received by the ink receiving layer is an ink containing a dye or an ink containing a pigment. Further, the above-mentioned object is achieved by an inkjet recorded product obtained by forming an image with ink on a recording medium, which is obtained by the transfer method. According to a preferred aspect of the present invention, in the inkjet recorded matter, the recording medium is an ink absorbing or non-ink absorbing medium.

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will now be described in detail based on embodiments with reference to the drawings. FIG. 1 shows a schematic cross-sectional view of an inkjet print transfer medium according to the present invention. Inkjet print transfer medium 100 according to the present invention
Is composed of a support 120, an image protection layer 140 provided on the support 120, and an ink receiving layer 160 provided on the image protection layer 140. Then, in the present invention, the ink 200 is adhered from the ink receiving layer side by an inkjet recording method, and thereafter, the ink receiving layer 160 side is superposed on the recording medium, as will be described later, on the recording medium. The support 120 is transferred by heat.
By peeling from the image protection layer 140, an ink jet recorded matter including the image protection layer 140 is formed. As the support 120 used in the present invention, a conventionally known one can be used. Specific examples of the support include plastic films such as polyester resin, polystyrene resin, polyethylene resin, polypropylene resin, polycarbonate resin, acrylic resin, polyvinyl chloride resin, and polyimide resin. In addition,
Since the support is finally peeled off, the light transmissivity of the support does not matter in particular, so that a support of any color can be selected. The thickness of the support is not particularly limited because it is finally peeled off as described above.
It is preferably about 200 μm. The image protection layer 140 used in the present invention has a function of protecting the ink attached to the ink receiving layer 160. As a material forming the image protective layer, in addition to being a film that is resistant to discoloration by heat or light and has excellent chemical / physical barrier properties, it is necessary to select a material having high transparency from the viewpoint of image quality. Is preferred.
The image protection layer 140 is mainly composed of a resin that is non-dyeing to a coloring material. The resin constituting the image protection layer 140 is preferably a thermoplastic resin, and specific materials include polyolefin, polystyrene,
Polymethacrylate (Mitsui Chemicals Bonron Series (trade name), Rohm and Haas Japan Primal Series (trade name), NSC Japan Nacrylic Series (trade name), Nissin Chemical Vini Blanc Series (trade name), Nippon Shokubai's Acryset series (trade name), Taisei's Akrit series (trade name), Daicel Chemical's Aqua Brid series (trade name), Showa High Polymer Polyzole series (trade name), vinyl acetate resin ( For example, Nippon Carbide Industry's Nicazole series (trade name), Daicel Chemicals Sebian (trade name), ethylene-vinyl acetate polymer (Clariant Polymer's Movinyl series (trade name), Denki EVA Denka EVA
Tex (trade name), Sumitomo Chemical's Sumika Flex series (trade name), Showa High Polymer Polysol (trade name), styrene-acrylic copolymer (Chuo Rika's Rica Bond series (trade name), Arakawa Industry Co., Ltd. Manufactured by Polymaron series (trade name), carboxyl-modified styrene-butadiene copolymer (JSR JSR series (trade name)), polyester, polyvinyl ether, polyamide polyurethane, polyethylene acrylic resin, acrylic ester resin, and other plastic pigments, Examples thereof include emulsions (including copolymers) and core-shell type crosslinked polymer fine particles. The glass transition point of the thermoplastic resin contained in the image protection layer 140 is preferably 20 to 120 ° C., more preferably 50 ° C. or lower.
By using a mixture of a thermoplastic resin blended with a material having a temperature higher than 50 ° C. or higher, it is possible to improve the adhesiveness with the support and the releasability from the support after the thermal transfer of the ink receiving layer 160 to the recording medium described later. Good points. In addition, the image protection layer 1
40 may contain a binder for a protective layer, and the resin and /
Alternatively, it has a function of binding to an ink receiving layer 160, which will be described later, and is preferably non-dyeing to a coloring material such as ink, like the resin described above. The image protective layer 140 used in the present invention is formed on the support as a continuous film or a discontinuous film. The thickness of the image protective layer 140 used in the present invention is not particularly limited, but from the viewpoint of the role of the protective layer, the texture of the inkjet recorded matter, and the like,
When it is composed of one layer, it is preferably 2 to 20 μm. If it is 2 μm or less, the function as a protective layer is not fulfilled, and if it is 20 μm or more, the original texture and texture of the inkjet recorded matter may be impaired. The protective layer 1
When 40 is composed of a plurality of layers, it is more preferable to add an ultraviolet absorber to the protective layer on the support side from the viewpoint of improving the light resistance after image formation. Further, if necessary, one or more kinds of various additives such as a quencher, an antioxidant, a water-proofing agent, a preservative and a surfactant can be contained. The material forming the ink receiving layer 160 used in the present invention is not particularly limited as long as it has a function of absorbing and holding ink. Ink receiving layer 1 constituting the inkjet print transfer medium 100 of the present invention
Reference numeral 60 denotes at least one ink receiving layer, and the ink receiving layer 160 includes an inorganic pigment, a binder, and an additive. As the inorganic pigment contained in the ink receiving layer 160 according to the present invention, one or more kinds of generally used water-insoluble or sparingly soluble inorganic pigments are used in order to obtain high ink absorbency and high color density. Can be used. Specifically, it is preferable to use a porous ultrafine particle pigment having a low refractive index, for example, amorphous silica, silica of precipitation method, gel type silica, colloidal silica, anhydrous alumina,
Alumina hydrate (preferably having a pseudo-boehmite structure), vapor phase silica, barium sulfate, titanium dioxide, calcium carbonate, carion, clay, magnesium silicate, calcium silicate, aluminum oxide and the like can be mentioned. The binder contained in the ink receiving layer 160 according to the present invention is preferably a cationic polymer. Specific examples of such a cationic polymer include polyethyleneimine salt, dimethylamine epihalohydrin condensate, polyvinylamine salt, polydimethylaminoethyl methacrylate quaternary salt, polydiallyldimethylammonium salt, salt of diallylamine acrylamide copolymer, and polystyrene There are primary ammonium salts and the like. Further, as the binder contained in the ink receiving layer 160 according to the present invention, a water-soluble resin having a good film-forming property can be mentioned in order to obtain fixing strength and ink absorbability. Specific examples of such water-soluble resin include
Cellulose derivatives such as polyvinyl alcohol, vinyl acetate, oxidized starch, etherified starch, carboxymethyl cellulose, hydroxyethyl cellulose, casein, gelatin, soybean protein, carboxyl modified polyvinyl alcohol, silyl modified polyvinyl alcohol, water-soluble acrylic polymers, etc. There are resins, etc. The blending ratio of the inorganic pigment and the binder contained in the ink receiving layer 160 according to the present invention is preferably binder: inorganic pigment = 1: 1 to 1:15, and more preferably 1: 1.5 to. It is 1:12, and more preferably 1: 2 to 1:10. As other additives, the ink receiving layer 20 according to the present invention includes a pigment dispersant,
Thickener, fluidity improver, defoamer, foam suppressor, release agent, foaming agent, penetrant, coloring dye, coloring pigment, fluorescent whitening agent, ultraviolet absorber, antioxidant, antiseptic, water resistance An agent, a hardener and the like can be appropriately blended as necessary. The ink receiving layer 160 used in the present invention may be composed of a plurality of layers. When it is composed of a plurality of layers, the ink absorbability of each layer can be changed by changing the type, amount and thickness of the above-mentioned inorganic pigment. further,
By changing the type and amount of the above cationic polymer, the water-soluble resin, etc., the ink receiving layer 160 of a dye or pigment as a coloring material.
It is also possible to control the penetration of the inside of the. It is necessary that the ink receiving layer 160 according to the present invention further includes a thermoplastic resin for the reason described below. In particular, it is preferable that a thermoplastic resin is present on the surface of the ink receiving layer 160. The presence of the thermoplastic resin facilitates thermal adhesion of the ink receiving layer 160 to the recording medium after inkjet printing on the ink receiving layer 160. Specific examples of the thermoplastic resin present on the surface of the ink receiving layer 160 include polyolefin, polystyrene, polymethacrylate, ethylene-vinyl acetate polymer, styrene-acrylic copolymer, polyester, polyvinyl ether, polyamide polyurethane, polyethylene acrylic resin. , A plastic pigment such as an acrylate resin, an emulsion (including a copolymer), and core-shell type crosslinked polymer particles can be used alone or in combination. The amount of the thermoplastic resin added is preferably 1 to 30% by weight with respect to 100% by weight of the ink receiving layer. If the amount added is less than 1% by weight, a sufficient adhesive effect cannot be obtained due to the melting of the thermoplastic resin.
If the addition amount is at least wt%, the image quality during inkjet printing may be adversely affected. Further, the glass transition point of the above thermoplastic resin is −20 to 100 ° C., which is suitable for melting due to application of heat during transfer.
The thickness of the ink receiving layer 160 of the present invention is not particularly limited as long as it is sufficient to absorb and retain the ink. Although the thickness varies depending on the ink droplet amount,
Preferably 1-100 μm, more preferably 2-50 μm
m. Inkjet print transfer medium 1 according to the invention
00 is prepared by forming the image protective layer 14 on the support 120.
0 and the ink receiving layer 160 can be formed. As its manufacturing method, a coating solution is prepared by dissolving or dispersing the above-mentioned materials in a suitable solvent, and the coating solution is subjected to a roll coating method, a rod bar coating method, a spray coating method, an air knife coating method, a gravure coating method. A known method such as a blade coating method may be used to coat the support on the support, followed by rapid drying. Image recording using the inkjet print transfer medium of the present invention,
It is performed by the inkjet recording method. The recording method preferably uses mechanical energy from a piezoelectric element or the like or thermal energy from a heating element. Also,
As the ink used in the recording method of the present invention, an aqueous ink and / or an oil ink can be used, but an aqueous ink is preferable in view of safety against fire and stain resistance to the environment. In particular, since the ink rapidly penetrates and is retained in the ink receiving layer 160, the ink has a viscosity of 20 ° C. at 20 ° C.
It must be mPa · s or less. As the coloring material used in the present invention, conventionally known materials such as dyes and pigments can be used. For example, as a dye used for ink jet recording, a water-soluble dye represented by a direct dye, a basic dye, a reactive dye, an edible dye or the like is preferable.
Further, when using the ink containing the pigment, it is necessary to make the voids of the ink receiving layer 160 larger than that of the dye ink, and as a result, the pigment ink sufficiently penetrates into the ink receiving layer. With respect to the colors of the inks used in the present invention, four color inks of cyan, magenta, yellow and black, six color inks of light magenta and light cyan added to the four colors, and orange and green of the four colors are added. 6 color inks can be mentioned.
Furthermore, seven-color ink in which light magenta, light cyan, and dark yellow are added to the four colors, or seven-color ink in which light cyan, light magenta, and light black are added to the four colors, and light cyan, light magenta, and light in the four colors Eight color inks to which black and middle black are added can also be used. Incidentally, in the ink jet recorded matter formed by the present invention, the recording surface and the observing surface are in the opposite relationship. That is, when an image is formed by the inkjet recording method, it is necessary to form a reverse image on the ink receiving layer 160. The recording medium used in the present invention is the inkjet print transfer medium 100 described above.
After the ink is adhered to the ink receiving layer 160, the ink receiving layer 160 is overlapped with the ink receiving layer 160, the support 120 is peeled off, and the ink receiving layer 160 and the image protection layer 140 are transferred to the recording medium. Such a recording medium can form a recorded image not only on an ink absorbing medium which can absorb ink but also on an ink non-absorbing medium which cannot absorb ink. Specific examples of such a recording medium include, but are not limited to, the following mediums, such as paper, polymer film and glass. Hereinafter, a transfer method of the inkjet print transfer medium according to the present invention will be described. Figure 2
FIG. 3 is a schematic diagram for explaining a transfer method of an inkjet print transfer medium according to the present invention. As shown in FIG. 2A, first, the ink 200 is attached from the ink receiving layer 160 side. Then, the ink that has reached the surface of the ink receiving layer 160 lands in the ink receiving layer 160. Then, the recording medium 180 is transferred from the ink receiving layer 160 side.
And the thermoplastic resin existing on the surface of the ink receiving layer or in the layer is melted by using a heating means 250 such as a heat roll or a thermal head in the superposed state and heat-bonded to the recording medium 180. Allow (Recording medium 1
80 and the interface between the ink receiving layer 160). Further, at the same time as the adhesion, the support 120 is peeled from the image protection layer 140 by the peeling means 300 shown in FIG.
An inkjet recording material is formed on the recording medium. A specific example of the peeling means is not particularly limited as long as it is a mechanical peeling means. In the ink jet recorded matter formed in this manner, the image is protected by the presence of the image protection layer 140 on the ink receiving layer 160. Further, since the ink is present in the ink receiving layer 160, the ink receiving layer 140 also functions as a protective layer for the ink, so that the storability of the ink image is improved. Hereinafter, the present invention will be specifically described based on Examples,
It is not limited to these examples. [Example 1] An acrylic emulsion (trade name: AQUABRID 45
592 (Tg: 80 ° C., manufactured by Daicel Chemical Industries, Ltd.) was coated so that the thickness after drying would be 10 μm, and dried. Next, the coating liquid 1 for the ink receiving layer shown below was coated so that the coating amount after drying would be 20 g / m ² . (Composition of coating liquid 1 for ink receiving layer) Vapor phase silica (Brand name Aerosil 380: average primary particle size 7 nm, specific surface area 380 m ² / g made by Nippon Aerosil) 100 parts polyvinyl alcohol (Brand name PVA235 Kuraray Co., Ltd.) ) 20 parts Alkylamine epichlorohydrin polycondensate 5 parts Boric acid 2 parts Surfactant 0.2 parts Vinibran 2598 (Tg: 33 ° C .; Nisshin Chemical Co., Ltd.) 10 parts Then, an inkjet recording material was prepared according to the following method. A photographic image was printed using a dye ink with the manufactured inkjet printer PM800C manufactured by Seiko Epson. After overlapping with a paper (Marshmallow 180 g / m2 made by Oji Paper Co., Ltd.) as a recording medium and laminating it with a commercially available laminator, the PET film as a support was peeled off. The laminating temperature at that time was about 100 ° C., and the speed was 10 mm / sec. Inkjet recorded matter 1 with a protective layer was obtained by this method. Example 2 A 100 μm PET film as a support was coated with an acrylic emulsion (trade name: AQUABRID 46
35 (Tg: 60 ° C., manufactured by Daicel Chemical Industries, Ltd.) was coated so that the thickness after drying would be 10 μm, and dried. Next, coating was performed so that the coating amount after drying of the ink receiving layer coating liquid 2 shown below was 10 g / m ² . (Composition of coating liquid 2 for ink receiving layer) Alumina sol (Brand name Alumina sol 520 manufactured by Nissan Kagaku) 100 parts Polyvinyl alcohol (Brand name PVA117 Kuraray Co., Ltd.) 20 parts Surfactant 0.2 parts Chemipearl W200 (Tg: 90) C. Average particle size 6 μm, manufactured by Mitsui Chemicals, Inc.) After 10 parts, a photographic image was printed using a pigment ink with an inkjet printer MC2000 manufactured by Seiko Epson Co., Ltd., which produced an inkjet recorded product according to the following method. After overlapping with a paper (Marshmallow 180 g / m2 made by Oji Paper Co., Ltd.) as a recording medium and laminating it with a commercially available laminator, the PET film as a support was peeled off. The laminating temperature at that time was about 120 ° C., and the speed was 10 mm / sec. Inkjet recorded matter 2 with a protective layer was obtained by this method. Comparative Example 1 An ink jet recording medium was prepared by applying the ink receiving layer coating liquid composition 1 to a PET film as a support in the same manner as in Example 1 except that the acrylic emulsion was not used. In the same manner as in Example 1, a photographic image was printed on a PM800C manufactured by Seiko Epson Corporation, and a paper as a recording medium (Marshmallow 180 g manufactured by Oji Paper Co., Ltd.
/ m2) and laminated with a commercially available laminator, and then the PET film as a support was peeled off to obtain an inkjet recorded product 3 for a comparative example. The following image storability test was conducted using the above inkjet (IJ) recorded materials 1 to 3. (Light resistance) Xe fade meter (Atlas Co .: Ci3
Radiant energy at 340 nm of 0.25
W / m ² , black panel temperature 63 ° C, relative humidity 50%
The acceleration test was performed under the conditions of (1) and evaluated. The evaluation result is IS
O10977: photography-processed photographic
color films and paper prints-methods formea
Based on suring image stability, initial concentration =
The performance was evaluated according to the following criteria based on the irradiation energy value at which the density residual ratio of any of the cyan, magenta, and yellow colors printed at 1.0 was 70%. ◯: Irradiation of 36 × 10 ³ klux · h or more Δ: 18 × 10 ³ klux · h or more, 36 × 10 ³
Irradiation below klux · h ×: Table 2 shows the results of irradiation below 18 × 10 ³ klux · h. (Water resistance) Drop a drop of tap water with a dropper onto the solid print areas of cyan, magenta, yellow, and black of each ink jet recorded product, let it dry overnight, and visually observe the degree of bleeding, and use the following criteria. Was evaluated according to. ◯: The four colors did not bleed at all. B: Blurring occurred in at least two colors (within a practically acceptable range) X: Blurring occurred in three or more colors (not practical) The results are shown in Table 2. (Gas resistance) Based on the dyeing fastness test method (L0855) for nitric oxide of dyed textiles in JIS standard, each inkjet recorded material was left in nitric oxide gas for 1 hour. The gas resistance was visually evaluated according to the following criteria by comparison with the recorded matter not exposed to the nitrogen oxide gas. ◯: Almost no change in hue Δ: Somewhat large change in hue ×: Large change in hue is shown in Table 1.

[Table 1]

As described above, by using the ink jet print transfer medium according to the present invention, it is possible to provide an ink jet recorded matter which is simple and has improved storability of ink images. Further, by using the inkjet print transfer medium according to the present invention, it is possible to form an inkjet recorded image not only on the ink absorbing medium but also on the ink non-absorbing medium.

[Brief description of drawings]

FIG. 1 is a schematic cross-sectional view of an inkjet print transfer medium according to the present invention.

FIG. 2 is a schematic diagram for explaining a transfer method of an inkjet print transfer medium according to the present invention.
(A) shows a state in which the ink flying by the inkjet recording method reaches the surface of the ink receiving layer from the ink receiving layer side. (B) shows a state in which the recording medium 180 is superposed on the ink receiving layer 160 side. (C)
Shows a state in which the ink receiving layer 160 and the recording medium 180 are adhered to each other by using a heating means and the support is peeled off by the peeling means 300.

[Explanation of symbols]

100 Inkjet printing transfer medium, 120
Support, 140 image protection layer, 160 ink receiving layer, 180 recording medium, 200 ink, 250 heating means, 300 peeling means

[Procedure amendment]

[Submission date] April 11, 2002 (2002.4.1)
1)

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

Patent application title: INKJET PRINT TRANSFER MEDIUM, TRANSFER METHOD, AND INKJET RECORD FORMED BY THE MEDIUM

[Claims]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ink jet printing transfer medium and a transfer method thereof, and more particularly, to the ink receiving layer after the ink is adhered to the ink receiving layer by the ink jet recording method. The present invention relates to an inkjet printing transfer medium for transferring to a sheet, a transfer method thereof, and an inkjet recorded matter formed by the medium.

[0002]

2. Description of the Related Art An ink jet recording system uses mechanical energy from a piezoelectric element or the like or thermal energy from a heating element to apply ejection energy to ink to eject small ink droplets from a recording head onto a recording medium. This is a system in which the droplets are attached to form the dots of the small droplets and recording is performed. Since such a recording method has features such as sharpness of recording, quietness of sound of a driving device, and ease of colorization, in recent years,
Its popularity is increasing more and more.

Utilizing such a recording system (including characters)
As a recording medium for forming an image and performing recording, in addition to plain paper, dedicated paper having an ink receiving layer on the recording surface side (front surface side) is known. In recent years, it has been desired to form a clear full-color image with higher resolution on such a recording medium. Due to recent technological development, in order to realize high image quality, inkjet recording media are required to have high image quality and high storability comparable to those of silver halide photographs.

The inks used in the ink jet recording system are roughly classified into two types, ink containing a dye (hereinafter referred to as "dye ink") and ink containing a pigment (hereinafter referred to as "pigment ink"). Is known).

Dye inks are widely used in printers for general household use because of their good coloring properties. However, the dye ink has water resistance, gas resistance,
The light resistance may be slightly inferior.

[0006] On the other hand, pigment inks are more popular in the fine art and photographic markets because they have better light resistance and water resistance than those of silver salt photographs. However, the problems with pigment inks are uneven gloss, abrasion resistance and resistance. It has been pointed out that there is a problem that it is slightly inferior in gas properties and print density.

As a method for solving the above problems of the ink image and improving the image storability, it has been proposed to additionally provide a protective layer on the ink image after ink jet recording. However, it is pointed out that a device for transferring the protective layer is required, and that if the transfer device is provided in the inkjet recording device, the device becomes complicated.

Therefore, there is a demand for easily improving the storability of ink jet recorded images.

[0009]

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and an inkjet printing transfer medium and a transfer method therefor capable of easily improving the storability of an inkjet recorded image, and a transfer method therefor are formed. It is an object of the present invention to provide a recorded inkjet recorded matter.

[0010]

The above object is an ink jet print transfer medium comprising a support, an image protective layer provided on the support, and an ink receiving layer provided on the image protective layer. The ink receiving layer includes a thermoplastic resin, and is achieved by an inkjet printing transfer medium in which the support is peeled from the image protection layer.

According to a preferred embodiment of the present invention, in the ink jet print transfer medium, the ink receiving layer further comprises an inorganic pigment and a binder.

According to a preferred aspect of the present invention, in the ink jet printing transfer medium, the glass transition point of the thermoplastic resin in the ink receiving layer is -20 to 100 ° C.

According to a preferred aspect of the present invention, in the ink jet print transfer medium, the image protection layer contains a thermoplastic resin.

According to a preferred embodiment of the present invention, in the ink jet print transfer medium, the glass transition point of the thermoplastic resin in the image protection layer is 20 to 120 ° C.

According to a preferred aspect of the present invention, in the ink jet print transfer medium, the ink received by the ink receiving layer is an ink containing a dye or an ink containing a pigment.

Further, the above object is to provide an ink jet printing transfer comprising a support, an image protective layer provided on the support, and an ink receiving layer containing a thermoplastic resin and provided on the protective layer. A transfer method for transferring an image to a recording medium using a medium, the method comprising: adhering ink to the ink receiving layer so as to form an image on the ink receiving layer; A heating step in which the thermoplastic resin is melted in a state where the recording medium is superposed and heated so that the ink receiving layer and the recording medium are adhered, and the support is peeled from the image protective layer. And a peeling step.

According to a preferred aspect of the present invention, in the transfer method, the heating step is performed by a heat roll or a thermal head.

According to a preferred aspect of the present invention, in the transfer method, the recording medium is an ink absorbing or non-ink absorbing medium.

According to a preferred aspect of the present invention, in the transfer method, the ink receiving layer further comprises an inorganic pigment and a binder.

According to a preferred aspect of the present invention, in the transfer method, the glass transition point of the thermoplastic resin in the ink receiving layer is -20 to 100 ° C.

According to a preferred aspect of the present invention, in the transfer method, the image protection layer further contains a thermoplastic resin.

According to a preferred embodiment of the present invention, in the transfer method, the glass transition point of the thermoplastic resin in the image protective layer is 20 to 120 ° C.

According to a preferred embodiment of the present invention, in the transfer method, the ink received by the ink receiving layer is
It is characterized in that it is an ink containing a dye or an ink containing a pigment.

Further, the above-mentioned object is achieved by an ink jet recorded matter in which an image is formed on the recording medium with ink, which is obtained by the transfer method.

According to a preferred aspect of the present invention, in the ink jet recorded matter, the recording medium is an ink absorbing or non-ink absorbing medium.

[0026]

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will now be described in detail based on embodiments with reference to the drawings.

FIG. 1 shows a schematic cross-sectional view of an inkjet print transfer medium according to the present invention.

The ink jet print transfer medium 100 according to the present invention comprises a support 120, an image protection layer 140 provided on the support 120, and an ink receiving layer 160 provided on the image protection layer 140. . Then, in the present invention, the ink 200 is adhered from the ink receiving layer side by an inkjet recording method, and thereafter, the ink receiving layer 160 side is superposed on the recording medium, as will be described later, on the recording medium. Thermal transfer is performed, and the support 1
By peeling 20 from the image protection layer 140,
An inkjet recorded matter including the image protection layer 140 is formed.

As the support 120 used in the present invention, any conventionally known one can be used. Specific examples of the support include plastic films such as polyester resin, polystyrene resin, polyethylene resin, polypropylene resin, polycarbonate resin, acrylic resin, polyvinyl chloride resin, and polyimide resin. Since the support is finally peeled off, the light transmissivity of the support does not cause any particular problem, and a support of any color can be selected.

The thickness of the support is not particularly limited because it is finally peeled off as described above, but is not limited to 5 to 200.
It is preferably μm.

The image protective layer 140 used in the present invention is
It has a function of protecting the ink attached to the ink receiving layer 160. As a material forming the image protective layer, in addition to being a film that is resistant to discoloration by heat or light and has excellent chemical / physical barrier properties, it is necessary to select a material having high transparency from the viewpoint of image quality. Is preferred.

The image protection layer 140 is mainly composed of a resin which is non-dyeing to the coloring material. Image protection layer 14
0 is preferably a thermoplastic resin, and specific materials include polyolefin, polystyrene, polymethacrylate (Bonron series (trade name) manufactured by Mitsui Chemicals, Primal series manufactured by Rohm and Haas Japan ( Product name), NSC Japan Nacrylic series (product name), Nissin Chemical's Vinyblan series (product name), Nippon Shokubai Acryset series (product name), Taisei Kakuritaku series (product name), Daicel Chemical's Aqua-Brid series (trade name), Showa High Polymer Polysol series (trade name),
Vinyl acetate resin (for example, Nicazole series (trade name) manufactured by Nippon Carbide Industry Co., Ltd., Cebian (trade name) manufactured by Daicel Chemical Industries, Ltd.), ethylene-vinyl acetate polymer (Movinyl series (trade name) manufactured by Clariant Polymer, manufactured by Denki Kagaku Kogyo) Denka EVA Tex (trade name), Sumitomo Chemical's Sumika Flex series (trade name), Showa High Polymer Polyzol (trade name), styrene-acrylic copolymer (Chuo Rika's Rica Bond series (trade name), Arakawa Kogyo Polymaron series (trade name), carboxyl-modified styrene-butadiene copolymer (JSR JSR)
Series (trade name)), polyester, polyvinyl ether, polyamide polyurethane, polyethylene acrylic resin, acrylic ester resin and other plastic pigments, emulsions (including copolymers), core-shell type crosslinked polymer fine particles and the like.

The glass transition point of the thermoplastic resin contained in the image protective layer 140 is preferably 20 to 120 ° C., more preferably 50 ° C. or lower and 50 ° C. or higher are blended. By using the mixture of the thermoplastic resins, the adhesiveness to the support and the releasability from the support after thermal transfer of the ink receiving layer 160 to be described later to the recording medium are favorable.

The image protective layer 140 may contain a protective layer binder and has a function of binding the resin and / or the ink receiving layer 160 described later, and like the resin described above. It is preferably non-dyeing to a coloring material such as ink.

The image protective layer 140 used in the present invention is
It is formed as a continuous film or a discontinuous film on the support.

The thickness of the image protective layer 140 used in the present invention is not particularly limited, but from the viewpoint of the role of the protective layer and the texture of the ink jet recorded matter, it is 2 to 20 μm in the case of being composed of one layer. Preferably there is. If it is 2 μm or less, the function as a protective layer is not fulfilled, and if it is 20 μm or more, the original texture and texture of the inkjet recorded matter may be impaired.

When the protective layer 140 is composed of a plurality of layers, it is more preferable to add an ultraviolet absorber to the protective layer on the support side from the viewpoint of improving the light resistance after image formation. Further, if necessary, one or more kinds of various additives such as a quencher, an antioxidant, a water-proofing agent, a preservative and a surfactant can be contained.

The material constituting the ink receiving layer 160 used in the present invention is not particularly limited as long as it has a function of absorbing and holding ink.

The inkjet print transfer medium 10 of the present invention.
The ink receiving layer 160 constituting 0 is composed of at least one ink receiving layer, and the ink receiving layer 160 is composed of an inorganic pigment, a binder, and an additive.

As the inorganic pigment contained in the ink receiving layer 160 according to the present invention, a generally used water-insoluble or sparingly soluble inorganic pigment is used in order to obtain high ink absorbency and color density. One or more kinds can be used. Specifically, a porous ultrafine particle pigment having a low refractive index is preferable, for example, amorphous silica, silica of precipitation method, gel type silica, colloidal silica, anhydrous alumina, alumina hydrate (preferably pseudo-boehmite structure). ), Vapor phase silica, barium sulfate, titanium dioxide, calcium carbonate, caryon, clay, magnesium silicate, calcium silicate, aluminum oxide and the like.

The binder contained in the ink receiving layer 160 according to the present invention is preferably a cationic polymer.
Specific examples of such a cationic polymer include polyethyleneimine salt, dimethylamine epihalohydrin condensate, polyvinylamine salt, polydimethylaminoethyl methacrylate quaternary salt, polydiallyldimethylammonium salt, salt of diallylamine acrylamide copolymer, and polystyrene There are primary ammonium salts and the like.

Further, as the binder contained in the ink receiving layer 160 according to the present invention, a water-soluble resin having a good film forming property in order to obtain fixing strength and ink absorbability can be mentioned. Specific examples of such water-soluble resin include polyvinyl alcohol, vinyl acetate, oxidized starch, etherified starch, carboxymethyl cellulose, cellulose derivatives such as hydroxyethyl cellulose, casein, gelatin, soybean protein, carboxyl modified polyvinyl alcohol, silyl modified polyvinyl alcohol, There are water-soluble resins such as water-soluble acrylic polymers.

The blending ratio of the inorganic pigment and the binder contained in the ink receiving layer 160 according to the present invention is preferably binder: inorganic pigment = 1: 1 to 1:15, more preferably 1 :.
1.5-1: 12, more preferably 1: 2-
It is 1:10.

As other additives, the ink receiving layer 20 according to the present invention includes a pigment dispersant, a thickener, a fluidity improver, a defoaming agent, a foam suppressor, a release agent, a foaming agent, and a penetrant. A coloring dye, a coloring pigment, a fluorescent whitening agent, an ultraviolet absorber, an antioxidant, an antiseptic, a water-proofing agent, a hardener and the like can be appropriately blended as necessary.

Further, the ink receiving layer 1 used in the present invention
60 may be composed of multiple layers. When it is composed of a plurality of layers, the ink absorbability of each layer can be changed by changing the type, amount and thickness of the above-mentioned inorganic pigment. Further, it is possible to control the permeation of the dye or pigment as the coloring material into the ink receiving layer 160 by changing the type and amount of the above cationic polymer, the water-soluble resin and the like.

The ink receiving layer 160 according to the present invention is required to further include a thermoplastic resin for the reason described later. In particular, it is preferable that a thermoplastic resin is present on the surface of the ink receiving layer 160. The presence of the thermoplastic resin facilitates thermal adhesion of the ink receiving layer 160 to the recording medium after inkjet printing on the ink receiving layer 160.

Specific examples of the thermoplastic resin present on the surface of the ink receiving layer 160 include polyolefin, polystyrene, polymethacrylate, ethylene-vinyl acetate polymer, styrene-acrylic copolymer, polyester, polyvinyl ether, polyamide polyurethane, Plastic pigments such as polyethylene acrylic resin and acrylic ester resin, emulsions (including copolymers),
The core-shell type crosslinked polymer fine particles can be used alone or in combination.

The amount of the above-mentioned thermoplastic resin added is preferably 1 to 30% by weight with respect to 100% by weight of the ink receiving layer. When the addition amount is 1% by weight or less, the thermoplastic resin is not melted to obtain a sufficient adhesive effect. On the contrary, when the addition amount is 30% by weight or more, the image quality during inkjet printing may be adversely affected.

The glass transition point of the above-mentioned thermoplastic resin is -20 to 100 ° C., which is suitable for melting due to the application of heat during transfer.

The thickness of the ink receiving layer 160 of the present invention is not particularly limited as long as it is sufficient to absorb and retain the ink. Although the thickness varies depending on the amount of ink droplets, it is preferably 1 to 100 μm, more preferably 2 to 50 μm.

The inkjet print transfer medium 100 according to the present invention is manufactured by forming the image protection layer 1 on the support 120.
40 and the ink receiving layer 160. As its manufacturing method, a coating solution is prepared by dissolving or dispersing the above-mentioned materials in a suitable solvent, and the coating solution is subjected to a roll coating method, a rod bar coating method, a spray coating method, an air knife coating method, a gravure coating method. A known method such as a blade coating method may be used to coat the support on the support, followed by rapid drying.

Image recording using the inkjet print transfer medium of the present invention is carried out by an inkjet recording method. The recording method preferably uses mechanical energy from a piezoelectric element or the like or thermal energy from a heating element.

As the ink used in the recording method of the present invention, water-based and / or oil-based inks can be used, but water-based inks are preferable in view of safety against fire and environmental pollution resistance. . In particular, the viscosity of the ink needs to be 20 mPa · s or less at 20 ° C. in order to quickly permeate and be retained in the ink receiving layer 160.

As the coloring material used in the present invention, conventionally known materials such as dyes and pigments can be used. For example, as a dye used for ink jet recording, a water-soluble dye represented by a direct dye, a basic dye, a reactive dye, an edible dye or the like is preferable.

Further, when using the ink containing the pigment, it is necessary to make the voids of the ink receiving layer 160 larger than that of the dye ink, and as a result, the pigment ink sufficiently penetrates into the ink receiving layer. become.

With respect to the colors of the inks used in the present invention, there are four color inks of cyan, magenta, yellow and black, six color inks obtained by adding light magenta and light cyan to the four colors, and oranges of the four colors. Six color inks including green can be mentioned. Further, 7 color inks obtained by adding light magenta, light cyan and dark yellow to the 4 colors, or 7 inks obtained by adding light cyan, light magenta and light black to the 4 colors.
Color inks and 8-color inks obtained by adding light cyan, light magenta, light black and middle black to the above four colors can also be used.

In the ink jet recorded matter formed by the present invention, the recording surface and the observing surface are in the opposite relationship. That is, when an image is formed by the inkjet recording method, it is necessary to form a reverse image on the ink receiving layer 160.

The recording medium used in the present invention is made to adhere to the ink jet printing transfer medium 100 described above, and then is superposed on the ink receiving layer 160, and the support 120 is peeled off to form the recording medium. Ink receiving layer 160
And the image protection layer 140 is transferred. Such a recording medium can form a recorded image not only on an ink absorbing medium which can absorb ink but also on an ink non-absorbing medium which cannot absorb ink. Specific examples of such a recording medium include, but are not limited to, the following mediums, such as paper, polymer film and glass.

The transfer method of the inkjet printing transfer medium according to the present invention will be described below.

FIG. 2 is a schematic diagram for explaining the transfer method of the ink jet print transfer medium according to the present invention.

As shown in FIG. 2A, first, the ink 200 is attached from the ink receiving layer 160 side. Then, the ink that has reached the surface of the ink receiving layer 160 lands in the ink receiving layer 160.

Thereafter, the recording medium 180 is superposed from the ink receiving layer 160 side, and in the superposed state, a heating means 250 such as a heat roll or a thermal head.
Is used to melt the thermoplastic resin present on the surface of the ink receiving layer or in the layer to be thermally adhered to the recording medium 180 (interface between the recording medium 180 and the ink receiving layer 160). Further, at the same time as the adhesion, the peeling means 300 shown in FIG.
20 is peeled off to form an ink jet recorded matter on the recording medium. A specific example of the peeling means is not particularly limited as long as it is a mechanical peeling means.

The ink jet recorded matter thus formed has the image protection layer 140 on the ink receiving layer 160.
The image is protected by the presence of. Further, since the ink is present in the ink receiving layer 160, the ink receiving layer 140 also functions as a protective layer for the ink, so that the storability of the ink image is improved.

The present invention will be specifically described below based on examples, but the invention is not limited to these examples. [Example 1] An acrylic emulsion (trade name: AQUABRID 45
592 (Tg: 80 ° C., manufactured by Daicel Chemical Industries, Ltd.) was coated so that the thickness after drying would be 10 μm, and dried.

Next, the coating liquid 1 for the ink receiving layer shown below.
The coating amount was 20 g / m ² after drying. (Composition of coating liquid 1 for ink receiving layer) Vapor phase silica (Brand name Aerosil 380: average primary particle size 7 nm, specific surface area 380 m ² / g made by Nippon Aerosil) 100 parts polyvinyl alcohol (Brand name PVA235 Kuraray Co., Ltd.) ) 20 parts Alkylamine epichlorohydrin polycondensate 5 parts Boric acid 2 parts Surfactant 0.2 parts Vinyburan 2598 (Tg: 33 ° C .; Nisshin Chemical Co., Ltd.) 10 parts After that, an inkjet recording material was prepared according to the following method. A photographic image was printed using a dye ink with the manufactured inkjet printer PM800C manufactured by Seiko Epson. After overlapping with a paper (Marshmallow 180 g / m2 made by Oji Paper Co., Ltd.) as a recording medium and laminating it with a commercially available laminator, the PET film as a support was peeled off. The laminating temperature at that time was about 100 ° C., and the speed was 10 mm / sec.

Inkjet recorded matter 1 having a protective layer was obtained by the above method. Example 2 A 100 μm PET film as a support was coated with an acrylic emulsion (trade name: AQUABRID 46
35 (Tg: 60 ° C., manufactured by Daicel Chemical Industries, Ltd.) was coated so that the thickness after drying would be 10 μm, and dried.

Next, the coating liquid 2 for the ink receiving layer shown below.
Was coated so that the coating amount after drying was 10 g / m ² . (Composition of coating liquid 2 for ink receiving layer) Alumina sol (Brand name Alumina sol 520 Nissan Kagaku) 100 parts Polyvinyl alcohol (Brand name PVA117 Kuraray Co., Ltd.) 20 parts Surfactant 0.2 parts Chemipearl W200 (Tg: 90) C. Average particle size 6 μm, manufactured by Mitsui Chemicals, Inc.) After 10 parts, a photographic image was printed using a pigment ink with an inkjet printer MC2000 manufactured by Seiko Epson Co., Ltd., which produced an inkjet recorded product according to the following method. After overlapping with a paper (Marshmallow 180 g / m2 made by Oji Paper Co., Ltd.) as a recording medium and laminating it with a commercially available laminator, the PET film as a support was peeled off. The laminating temperature at that time was about 120 ° C., and the speed was 10 mm / sec.

Inkjet recorded matter 2 having a protective layer was obtained by such a method. Comparative Example 1 An ink jet recording medium was prepared by applying the ink receiving layer coating liquid composition 1 to a PET film as a support in the same manner as in Example 1 except that the acrylic emulsion was not used.

In the same manner as in Example 1, after printing a photographic image with PM800C manufactured by Seiko Epson Corporation, superimposing it on paper (Marshmallow 180 g / m2 manufactured by Oji Paper Co., Ltd.) as a recording medium, and laminating it with a commercially available laminator Then, the PET film as the support was peeled off to obtain an inkjet recording material 3 for a comparative example.

The following image storability test was conducted using the above inkjet (IJ) recorded materials 1 to 3.

(Light resistance) An acceleration test was carried out using a Xe fade meter (Ci35A, manufactured by Atlas) under the conditions of radiant energy of 340 nm of 0.25 W / m ² , black panel temperature of 63 ° C. and relative humidity of 50%. evaluated. The evaluation result is ISO10977: photography-processed p
hotographic color films and paper prints-meth
Based on the ods formeasuring image stability, based on the irradiation energy value at which the density residual ratio of any of cyan, magenta, and yellow is 70%, which is printed so that the initial density is 1.0, The performance was evaluated according to the following criteria.

○: Irradiation of 36 × 10 ³ klux · h or more Δ: 18 × 10 ³ klux · h or more, 36 × 10 ³
Irradiation below klux · h ×: Table 2 shows the results of irradiation below 18 × 10 ³ klux · h.

(Water resistance) One drop of tap water was dropped with a dropper onto the solid print portions of each color of cyan, magenta, yellow and black of each ink jet recorded product, and the mixture was left to stand overnight to dry, and the degree of bleeding was visually observed. It was evaluated according to the following criteria.

[0074] ◯: The four colors did not bleed at all.

B: Blurring occurred in at least two colors (within a practically acceptable range) X: Blurring occurred in three or more colors (not practical) The results are shown in Table 2. (Gas resistance) Based on the dyeing fastness test method (L0855) for nitric oxide of dyed textiles in JIS standard, each inkjet recorded material was left in nitric oxide gas for 1 hour. The gas resistance was visually evaluated according to the following criteria by comparison with the recorded matter not exposed to the nitrogen oxide gas.

[0076] ○: almost no change in hue △: Hue change is large ×: Large hue change The results are shown in Table 1.

[0077]

[Table 1]

As described above, by using the ink jet print transfer medium according to the present invention, it is possible to provide an ink jet recorded matter which is simple and has improved storability of ink images.

Further, by using the ink jet print transfer medium according to the present invention, it is possible to form an ink jet recorded image not only on the ink absorbing medium but also on the ink non absorbing medium.

[Brief description of drawings]

FIG. 1 is a schematic cross-sectional view of an inkjet print transfer medium according to the present invention.

FIG. 2 is a schematic diagram for explaining a transfer method of an inkjet print transfer medium according to the present invention.
(A) shows a state in which the ink flying by the inkjet recording method reaches the surface of the ink receiving layer from the ink receiving layer side. (B) shows a state in which the recording medium 180 is superposed on the ink receiving layer 160 side. (C)
Shows a state in which the ink receiving layer 160 and the recording medium 180 are adhered to each other by using a heating means and the support is peeled off by the peeling means 300.

[Description of Reference Signs] 100 Inkjet printing transfer medium, 120
Support, 140 image protection layer, 160 ink receiving layer, 180 recording medium, 200 ink, 250 heating means, 300 peeling means

Claims (16)

[Claims] 1. An inkjet print transfer medium comprising a support, an image protective layer provided on the support, and an ink receiving layer provided on the image protective layer, wherein the ink receiving layer is a heat-sensitive layer. An inkjet print transfer medium comprising a plastic resin, wherein the support is peeled from the image protective layer. 2. The ink jet print transfer medium according to claim 1, wherein the ink receiving layer further comprises an inorganic pigment and a binder. 3. The ink jet print transfer medium according to claim 1, wherein the glass transition point of the thermoplastic resin in the ink receiving layer is −20 to 100 ° C. 4. The ink jet print transfer medium according to claim 1, wherein the image protection layer contains a thermoplastic resin. 5. The ink jet print transfer medium according to claim 4, wherein the glass transition point of the thermoplastic resin in the image protective layer is 20 to 120 ° C. 6. The ink received by the ink receiving layer is
The inkjet print transfer medium according to claim 1, which is an ink containing a dye or an ink containing a pigment. 7. An inkjet print transfer medium comprising a support, an image protective layer provided on the support, and an ink receiving layer containing a thermoplastic resin and provided on the protective layer. A transfer method for transferring an image to a recording medium, wherein the step of attaching ink to the ink receiving layer so as to form an image on the ink receiving layer, the ink receiving layer and the recording medium A heating step of melting the thermoplastic resin in a superposed state and heating so that the ink receiving layer and the recording medium adhere to each other; and a peeling step of peeling the support from the image protective layer,
A transfer method comprising: 8. The transfer method according to claim 7, wherein the heating step is performed by a heat roll or a thermal head. 9. The transfer method according to claim 7, wherein the recording medium is an ink absorbing or non-ink absorbing medium. 10. The transfer method according to claim 7, wherein the ink receiving layer further contains an inorganic pigment and a binder. 11. The transfer method according to claim 7, wherein the glass transition point of the thermoplastic resin in the ink receiving layer is −20 to 100 ° C. 12. The transfer method according to claim 7, wherein the image protection layer further contains a thermoplastic resin. 13. The transfer method according to claim 12, wherein the glass transition point of the thermoplastic resin in the image protective layer is 20 to 120 ° C. 14. The transfer method according to claim 7, wherein the ink received by the ink receiving layer is an ink containing a dye or an ink containing a pigment. 15. An inkjet recorded product, which is an image formed by ink on a recording medium, which is obtained by the transfer method according to any one of claims 7 to 14. 16. The ink jet recorded matter according to claim 15, wherein the recording medium is an ink absorbing or non-ink absorbing medium.